Doctorate Mohammad Hassan Hadizadeh: Researcher at Shandong University, China
Dr. Mohammad Hassan Hadizadeh is an experienced physical and atmospheric chemist whose interdisciplinary research spans computational chemistry, surface interactions, and environmental pollutant degradation. With a strong foundation in density functional theory (DFT) and ab initio molecular dynamics (AIMD), he has contributed significantly to understanding the behavior of radicals, especially hydroxyl (·OH), at gas-liquid interfaces and in nanodroplets. Over the past decade, Dr. Hadizadeh has authored more than 25 peer-reviewed publications and collaborated with leading researchers across China, Europe, and the Middle East. His current role as a National Foreign Expert at Shandong University reflects his leadership in environmental reaction modeling and his ability to bridge theory with experimental validation.
Online Profiles
As of 2025, Dr. Mohammad Hassan Hadizadeh has accumulated 190 citations, reflecting the growing recognition and impact of his research in the fields of atmospheric and environmental chemistry. He holds an h-index of 8, indicating that at least eight of his publications have each received eight or more citations, and an i10-index of 6, representing six publications with ten or more citations. Notably, nearly all citations have been acquired since 2020, demonstrating the recent and ongoing relevance of his contributions to computational chemistry, pollutant degradation, and molecular dynamics studies.
Education
Dr. Hadizadeh completed his Ph.D. in Physical Chemistry from the University of Science and Technology of China (USTC) in 2020, where he focused on atmospheric chemistry and interfacial radical dynamics. He previously obtained his M.Sc. in Physical Chemistry from Kashan University in 2012, with a thesis focused on corrosion inhibition and quantum chemical modeling. His foundational B.Sc. in Chemistry from Isfahan University of Technology (2009) included broad training in analytical, inorganic, and computational chemistry. This solid academic background provided him with the analytical tools, theoretical knowledge, and computational skills that underpin his current research into molecular-level environmental processes.
Research Focus
Dr. Hadizadeh’s research is focused on uncovering the molecular mechanisms governing chemical transformations in atmospheric and environmental systems. He investigates how radicals such as OH, NO₃, and ClO behave at air–water interfaces and within nanodroplets, using DFT and AIMD simulations to provide atomic-level insights into degradation, adsorption, and reaction pathways. His work also includes modeling pollutant interactions with nanostructured materials such as AlN and boron nitride nanocones, advancing the development of materials for environmental remediation. He is particularly interested in how temperature, humidity, and surface properties influence chemical reactivity—bridging the gap between laboratory conditions and real-world atmospheric chemistry.
Experience
Throughout his academic career, Dr. Hadizadeh has held a variety of teaching and research positions that reflect both breadth and depth in the chemical sciences. He began his professional journey teaching chemistry at Azad University (2012–2015), then transitioned to international education by teaching A-Level science at Hefei University of Technology (2020–2021). From 2021 to 2024, he served as a Postdoctoral Researcher at Shandong University’s Environment Research Institute, contributing to several high-impact NSFC-funded projects. In 2024, he was a visiting scholar at the University of Copenhagen and the Research Institute of Petroleum Industry (RIPI), deepening his collaborations in Europe and Iran. As of 2025, he holds the title of National Foreign Expert at Shandong University.
Research Timeline
Dr. Hadizadeh’s early research (2010–2014) centered on corrosion inhibition and gas adsorption on nanostructures, combining experimental techniques with theoretical modeling. His Ph.D. studies (2015–2020) marked a significant shift to radical behavior in aqueous systems, using AIMD to simulate hydroxyl radical mobility and interactions. From 2021 onward, his postdoctoral and expert-level work expanded into environmental degradation pathways, gas-phase interface chemistry, and pollutant breakdown at the molecular level. By integrating simulation with environmental data, his recent research emphasizes real-world applications, including atmospheric modeling, water purification, and sustainable material design.
Awards & Honors
Dr. Hadizadeh has received multiple honors recognizing his academic excellence and international contributions. He was awarded a full scholarship by the China Scholarship Council (CSC) for his doctoral studies and was selected for China’s prestigious National Foreign Expert Program in 2025. He has led and participated in projects funded by the National Natural Science Foundation of China (NSFC), underscoring his value as a principal investigator and team researcher. His contributions as a reviewer for journals under RSC and Elsevier also reflect his peer recognition. He holds a TESOL certification from Westminster College London and has completed a professional development course at the University of Oxford on effective learning methods.
Recent Publications
Among Dr. Hadizadeh’s most highly regarded publications is his 2021 article in Physical Chemistry Chemical Physics, titled “The mobility and solvation structure of a hydroxyl radical in a water nanodroplet: A Born–Oppenheimer molecular dynamics study.” This work was one of the earliest to combine AIMD with interfacial radical chemistry, providing deep insights into how ·OH behaves in confined aqueous environments. The findings from this study have been frequently cited in subsequent research on radical-mediated oxidation and environmental chemistry. The paper stands as a benchmark in his research trajectory, setting the stage for his continued work in modeling radical reactions at the nano- and meso-scale levels under realistic environmental conditions.
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Hu, Y., Zhou, Y., Hadizadeh, M.H., Xu, F.
Unveiling the Dynamics of NO₃ at the Air–Water Interface and in Bulk Water: A Comparative Study with Cl and ClO
* Molecules*, 30(8), 1724 (2025).
[DOI Link Pending]
→ Comparative molecular study of NO₃, Cl, and ClO radicals in different aqueous environments using quantum chemical simulations. -
Zheng, S., Zhou, Y., Zhang, Q., Hadizadeh, M.H., Wang, X., Hu, Y., Sun, Y., Xu, F., et al.
Mechanism and Direct Kinetic Study on the Homogeneous Gas-Phase Formation of 1,2,3,4,5,6,7-HpCN from the Self-Condensation of 2,3,4,5-TeCPRs and Cross-Condensation of PCPRs
* Journal of Environmental Chemical Engineering*, 12(2), 112341 (2024).
https://doi.org/10.1016/j.jece.2023.112341
→ Investigates the kinetic and mechanistic pathways for toxic polychlorinated naphthalenes in the atmosphere via theoretical modeling. -
Hadizadeh, M.H., Xu, F.
Molecular Insights into Thermally Induced Behavior of Hydroxyl Radicals at Water Nanodroplet Interfaces
* Scientific Reports*, 15(1), 26219 (2025).
[DOI Link Pending]
→ Ab initio molecular dynamics study exploring how temperature influences radical distribution and reactivity at the gas–water interface. -
Pourhashem, S., Hadizadeh, M.H., Ji, X., Zhou, Z., Duan, J., Ci, X., Lu, H., Hou, B.
Recognizing the Function of Different Silane Coupling Agents on MXene Adsorption/Barrier Behavior in Solvent-Borne Epoxy Coatings: Experimental Studies, Density Functional Theory, and Molecular Dynamics Simulations
* Progress in Organic Coatings*, 204, 108453 (2025).
https://doi.org/10.1016/j.porgcoat.2024.108453
→ Integrates simulation and experimental work to understand surface modifications in high-performance anti-corrosion coatings. -
Pourhashem, S., Hadizadeh, M.H., Ji, X., Zhou, Z., Duan, J., Ci, X., Lu, H., Hou, B.
Corrigendum to: Recognizing the Function of Different Silane Coupling Agents on MXene Adsorption/Barrier Behavior in Solvent-Borne Epoxy Coatings
* Progress in Organic Coatings*, 204, 109234 (2025).
Strengths and eligibility factors that make Dr. Mohammad Hassan Hadizadeh a strong candidate for the Distinguished Researcher Award, each presented under a focused heading:
Outstanding Publication Record in High-Impact Journals
Dr. Hadizadeh has authored over 25 peer-reviewed articles in respected international journals, including Physical Chemistry Chemical Physics, Scientific Reports, Journal of Environmental Chemical Engineering, and Progress in Organic Coatings. His research has addressed critical challenges in atmospheric chemistry, nanomaterials, and environmental degradation. The consistently high quality and volume of his publications demonstrate sustained scholarly productivity and international visibility.
Interdisciplinary Research Excellence in Environmental and Computational Chemistry
With expertise spanning density functional theory (DFT), ab initio molecular dynamics (AIMD), and atmospheric interface modeling, Dr. Hadizadeh has contributed novel insights into pollutant transformation, radical behavior, and adsorption mechanisms. His interdisciplinary work merges computational chemistry with real-world environmental applications, making his findings both theoretically rigorous and practically impactful—a key eligibility criterion for distinction.
International Recognition and Collaboration
Dr. Hadizadeh has held visiting scholar positions at the University of Copenhagen and the Research Institute of Petroleum Industry (RIPI), and has collaborated with global experts from China, Europe, and the Middle East. His selection as a National Foreign Expert in China underscores his international credibility, leadership, and institutional trust—qualities central to distinguished researcher status.
Research Funding and National-Level Project Leadership
He has led or contributed to several NSFC-funded research projects, reflecting his capacity to secure competitive funding and manage large-scale scientific investigations. His work aligns with national and global priorities in clean energy, environmental remediation, and chemical safety—strengthening his case for recognition at the distinguished level.
Scientific Impact and Academic Service
Dr. Hadizadeh’s research has received 190 citations, an h-index of 8, and an i10-index of 6, with nearly all citations emerging after 2020—indicating both scientific relevance and rising influence. In addition, his role as a reviewer for RSC and Elsevier journals and his participation as an invited speaker at international conferences highlight his broader contributions to the advancement and dissemination of scientific knowledge.